Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/9722
Título
Indoor daylight model for all-sky-type luminance patterns
Autor
Publicado en
Proceedings 12CNIT 2022, p. 69-78
Fecha de publicación
2022
ISBN
978-84-09-42477-1
Descripción
Comunicación presentada en: XII Congreso Nacional y III Internacional de Ingeniería Termodinámica (12 CNIT), June 19- July 1, Madrid (Spain)
Resumen
Daylighting is a design concept of buildings recognized as a key strategy in reducing the energy consumption and improving visual comfort and well being of their occupants. According to the International Energy Agency (IEA), artificial lighting makes up 14% of electrical consumption in the European Union and 19% worldwide. In addition to improve the energy efficiency of buildings, it has been demonstrated that daylighting has positive effects on human health and productivity. Energy standards strongly recommend incorporating daylighting strategies into building design. However, daylighting design is complex due to its changing nature. Likewise improving the occupants' life, daylight implementation is also related to technical and architectural solutions such as heating and cooling. Therefore, it is necessary balancing the positive health effects and energy savings in artificial lighting with the the possible thermal and visual discomfort caused by excessive sunlight penetrations and glare.
Palabras clave
Luminance pattern
All-sky model
Daylight
Energy efficiency
Materia
Energía solar
Solar energy
Termodinámica
Thermodynamics
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